CMIP6 模型中驱动南半球哈德利环流扩张模型间扩展的过程

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Geophysical Research: Atmospheres Pub Date : 2024-11-06 DOI:10.1029/2024JD041726
Ije Hur, Changhyun Yoo, Sang-Wook Yeh, Young-Ha Kim, Kyong-Hwan Seo
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引用次数: 0

摘要

近几十年来,哈德利环流(HC)一直在向极地扩张。据耦合模式相互比较项目第 6 阶段(CMIP6)模式预测,这种扩张在未来将加速,在南半球(SH)更为明显。然而,各模式之间的扩张程度差异很大。我们研究了驱动 SH HC 扩展预测中模型间差异的机制。通过对 16 个 CMIP6 模型模拟的 SH HC 趋势模式进行经验正交函数分析,并采用历史情景和共同社会经济路径 5-8.5 情景,得出了模型间差异。领先模式显示了 SH HC 极向范围内的平均经向流函数异常,解释了 49.73% 的方差,并与 SH HC 扩展显著相关(r = 0.94)。通过分析扩展的Kuo-Eliassen方程,我们发现模型间在表示二重加热方面的差异造成了约14%的模型间差异。经向涡动量和热通量分别造成了约 21% 和 18% 的模型间差异。模拟相对较大的 SH HC 扩展的模式往往显示南太平洋辐合带降水增加,亚热带气压不稳定性减弱,中纬度喷流极向移动增强。这表明,可以通过减少平均场趋势的偏差来限制 HC 预测的不确定性。
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Processes Driving the Intermodel Spread of the Southern Hemisphere Hadley Circulation Expansion in CMIP6 Models

The Hadley circulation (HC) has been expanding poleward in recent decades. The Coupled Model Intercomparison Project Phase 6 (CMIP6) models predict that the expansion will accelerate in the future, more so in the Southern Hemisphere (SH). However, the extent of the expansion varies widely among the models. We investigate the mechanisms driving the intermodel spread in SH HC expansion predictions. The intermodel spread is obtained by an empirical orthogonal function analysis on the SH HC trend patterns of 16 CMIP6 model simulations using the historical and shared socioeconomic pathway 5–8.5 scenarios. The leading mode, showing a mean meridional stream function anomaly at the poleward SH HC extent, explains 49.73% of the variance and significantly correlates (r = 0.94) with the SH HC expansion. By analyzing the extended Kuo-Eliassen equation, we find that the intermodel difference in the representation of diabatic heating is responsible for about 14% of the intermodel spread. The meridional eddy momentum and heat fluxes contribute to about 21% and 18% of the intermodel spread, respectively. The models simulating a relatively large SH HC expansion tend to show increased precipitation in the Southern Pacific Convergence Zone, reduced baroclinic instability in the subtropics, and an enhanced poleward shift of jet stream in the midlatitudes. This suggests that the uncertainty in the HC projection may be constrained by reducing the bias in the trend of the mean fields.

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来源期刊
Journal of Geophysical Research: Atmospheres
Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics
CiteScore
7.30
自引率
11.40%
发文量
684
期刊介绍: JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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